CN116069135A - Computer power supply with multiple adaptation performance and using method thereof - Google Patents

Abstract

The invention discloses a computer power supply with various adaptation performance and a use method thereof, relates to the technical field of computer power, and solves the problem that the computer power supply can only be used in a butt joint way with a corresponding power adapter when in use, and can not be matched with other types of power adapters when the power adapter is damaged or forgotten to be carried. The computer power supply with various adaptation performance comprises a bottom plate, wherein end heat dissipation shells are arranged on the two end surfaces of the bottom plate, a protective upper shell is arranged above the two end heat dissipation shells, and a data wire is arranged on the outer side of one of the end heat dissipation shells. The invention can quickly switch the type of the connector of the computer power supply by arranging the positioning mechanism, the power adapter connector clamping mechanism and the power adapter connector switching mechanism, so that the computer can use different types of power adapters.

Description

Computer power supply with multiple adaptation performance and using method thereof

Technical Field

The invention relates to the field of power supplies of computers, in particular to a computer power supply with various adaptation performances and a using method thereof.

Background

With the rapid development of social economy, computers belong to weak current products, that is to say, the working voltage of components is lower, generally within plus or minus 12 volts, and is direct current, while the common commercial power is 220 volts (110 volts in some countries) alternating current, and cannot be directly used on computer components, so that the computer needs a power supply part like many household appliances, is responsible for converting the common commercial power into the voltage which can be used by the computer, is generally installed inside the computer, has very low working voltage of core components of the computer, and has high requirements on power supply because the working frequency of the computer is very high.

However, the existing computer power supply can only be used in a butt joint with a corresponding power adapter when in use, and can not be matched with other types of power adapters when the power adapter is damaged or forgets to carry; therefore, the existing requirements are not met, and a computer power supply with various adaptive performances and a using method thereof are provided.

Disclosure of Invention

The invention aims to provide a computer power supply with various adaptation performance and a use method thereof, so as to solve the problems that the existing computer power supply provided in the background art can only be used in a butt joint way with a corresponding power adapter when in use, and can not be matched with other types of power adapters when the power adapter is damaged or forgets to carry.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a computer power supply with multiple suitability, includes the bottom plate, the both ends surface of bottom plate all is provided with tip heat dissipation casing, two the top of tip heat dissipation casing is provided with the protection epitheca, one of them the outside of tip heat dissipation casing is provided with the data line, the tip that the data line kept away from tip heat dissipation casing is provided with the bayonet joint, the other end of data line passes from the centre of tip heat dissipation casing, another the outside of tip heat dissipation casing is provided with positioning mechanism, the outside is provided with positioning mechanism the inboard of tip heat dissipation casing is provided with power adapter joint clamping mechanism;

the positioning mechanism comprises a positioning outer frame, the positioning outer frame is attached to the outer side of the end part heat dissipation shell, the two ends of the positioning outer frame are connected with the end part heat dissipation shell through screws, the upper surface and the lower surface of the positioning outer frame are respectively provided with a penetrating connecting groove, the upper side and the lower side of the positioning outer frame are respectively provided with a cover plate, two sides of each cover plate are respectively provided with two positioning connecting blocks, the middle of each positioning connecting block is penetrated and provided with a positioning rod, one end of each positioning rod is fixedly connected with the outer surface of the end part heat dissipation shell, the outer side of the other end of each positioning rod is movably provided with a locking nut, the surface of each cover plate attached to the end part heat dissipation shell is provided with a cover sliding groove, the inner side of the end part of each cover sliding groove far away from the positioning outer frame is provided with a positioning electromagnet, the inner side of each cover sliding groove is movably provided with a positioning plug board, the end part of each positioning plug board far away from the cover sliding groove penetrates through the middle of the connecting grooves, the end part of each positioning plug board positioned at the inner side of the cover sliding groove is provided with a positioning permanent magnet, the end part of each positioning plug board is positioned at the inner side of the cover sliding groove, the end part of each positioning plug board is penetrated and provided with a positioning slide block, one end part of the end part heat dissipation shell is fixedly connected with a reset slide block, the reset slide block is connected with the end of the end part heat dissipation shell, the end part is far from the end part heat dissipation shell, and the end part is far from the middle guide rod is far from the end part heat dissipation device;

The power adapter joint clamping mechanism comprises a mounting protection shell, one end of the mounting protection shell is attached to the inner wall of a heat dissipation shell at the end part, a guide chute is formed in the other end of the mounting protection shell, a lifting block is movably arranged in the mounting protection shell, a lifting slide block is arranged at the end part, close to the guide chute, of the lifting block, a lifting screw rod is arranged in the middle of the lifting slide block in a penetrating manner, a limiting rod is arranged in the middle of the lifting screw rod and the guide chute, the limiting rod penetrates through the middle of the lifting slide block and is in sliding connection with the lifting slide block, a lifting motor is arranged at one side of the bottom end of the lifting screw rod, lifting gears are respectively arranged at the end part of the lifting motor and the outer surface of the bottom end of the lifting screw rod, and the two lifting gears are meshed with each other;

an inner threaded sleeve is arranged in the other end of the lifting block, a clamping motor is arranged below the side of the inner threaded sleeve, clamping gears are arranged at the end part of the clamping motor and the outer surface of the inner threaded sleeve, the two clamping gears are meshed with each other, an end limiting plate is arranged at the outer side of one end of the inner threaded sleeve, the end limiting plate is inlaid at the end part of the limiting ring and is provided with a ball bearing in the middle of the end part of the inner threaded sleeve, a clamping screw rod penetrates through the middle of the inner threaded sleeve, one end of the clamping screw rod is inserted into the lifting block, and the other end of the clamping screw rod is positioned at the outer part of the lifting block and is provided with a clamping head;

The clamping device comprises a clamping head, and is characterized in that movable clamping blocks are arranged above and below the clamping head, clamping connecting rods are arranged at the ends, facing the surface of the clamping head, of the movable clamping blocks, clamping springs are sleeved outside the ends of the clamping connecting rods, limiting rings are arranged at the ends, close to the movable clamping blocks, of the clamping springs, the limiting rings are sleeved outside the clamping connecting rods and clamped on the surface of the clamping head, the limiting rings are connected with the clamping head through screws, an energizing conductor is clamped in the middle of the other end of the clamping head, a connecting wire is arranged at the end, inside the clamping head, of the energizing conductor, and penetrates through the lifting blocks and penetrates through the middle of a guide chute, a conducting sheet is arranged at the other end of the energizing conductor, and a power adapter connector is arranged outside the conducting sheet;

the other end of the power adapter connector penetrates through the end heat dissipation shell and is spliced in the middle of the positioning outer frame, the end face of the power adapter connector penetrating through the middle of the end heat dissipation shell is kept flush with the outer surface of the positioning outer frame, positioning splicing grooves are formed in the upper surface and the lower surface of the outer wall of the middle of the positioning outer frame, the end of the positioning splicing plate penetrating through the middle of the connecting groove is clamped on the inner side of the positioning splicing grooves, and a storage bin is arranged on the inner wall of the installation protection shell;

The inside activity of accomodating the storehouse is provided with power adapter joint switching mechanism, power adapter joint switching mechanism includes that power adapter connects places the seat, the bottom surface that power adapter connects places the seat is provided with the switching guide arm, switching guide arm joint is in the inner wall of installation protection casing and installation protection casing sliding connection, the one end terminal surface mosaic of switching guide arm is provided with the switching internal thread ring, the centre of switching internal thread ring runs through and is provided with the switching screw rod, the one end grafting of switching screw rod is provided with the switching motor in the inner wall and the tip below of installation protection casing, the tip of switching motor all is provided with the switching gear with the tip surface that the switching screw rod is close to the switching motor, two switching gear keeps meshing each other, the top that power adapter connects places the seat is provided with the pressurization piece, the one end bottom surface of pressurization piece is provided with the pressurization connecting rod, the bottom grafting of pressurization connecting rod is provided with the pressurization permanent magnet in the inside of power adapter joint place seat and the bottom, the below of pressurization permanent magnet is provided with the pressurization electro-magnet, the pressurization piece is provided with the switching motor in the middle of the upper surface that the seat was placed with the switching screw rod, the extrusion spring housing, the extrusion motor is provided with the pressurization spring housing, the location electro-magnet is connected with the storage battery through the extrusion spring, the switch, the location electro-magnet.

Preferably, the outer surface of the positioning rod is provided with threads which are in the same rotation direction as the inner surface of the lock nut sleeved on the outer side of the positioning rod, and the lock nut is sleeved on the outer side of the positioning rod through thread rotation.

Preferably, the reset slide block is inserted in the middle of the end part of the outer wall of the end part heat dissipation shell, and a U-shaped connecting port is arranged in the middle of the end part of the outer wall of the end part heat dissipation shell, and the width of the U-shaped connecting port is larger than or equal to the diameter of the guide rod.

Preferably, the inner side surface of the lifting slide block penetrated by the lifting screw rod is provided with threads which are in the same rotation direction with the outer surface of the lifting slide block, and the lifting slide block and the lifting screw rod, the internal thread sleeve and the clamping screw rod, and the switching internal thread ring and the switching screw rod are mutually in threaded transmission.

Preferably, a limiting rod is arranged below the clamping screw rod, one end of the limiting rod is fixedly connected with the clamping head, and the other end of the limiting rod is inserted into the lifting block and is in sliding connection with the lifting block.

Preferably, the surface of the limiting rod is provided with an anti-falling sliding groove, the inner side of the end part of the anti-falling sliding groove, which is close to the lifting block, is provided with an anti-falling limiting piece, and the anti-falling limiting piece is connected with the lifting block through a pin.

Preferably, an assembling clamping groove is formed in the surface, attached to the positioning permanent magnet, of the positioning plug board, an assembling plug block is arranged at the contact part of the top end of the positioning plug board and the positioning permanent magnet, and the assembling plug block is inserted into the inner side of the assembling clamping groove.

A method of using a computer power supply having a plurality of adaptive capabilities, the method comprising the steps of:

(A) Firstly, starting a storage battery arranged on the surface of a bottom plate, so that a lifting motor, a clamping motor, a switching motor, a positioning electromagnet and a pressurizing electromagnet are supplied with power of the storage battery, at the moment, the two positioning electromagnets are connected with current and generate magnetism to magnetically adsorb a corresponding positioning permanent magnet, the adsorbed positioning permanent magnet drives a positioning plugboard to move towards the inner side of a covering chute, and meanwhile, a reset slider compresses a reset spring along with the movement of the positioning plugboard until the end part of the positioning plugboard is separated from the middle of a positioning plugboard on the end part surface of a power adapter connector;

(B) After the positioning plugboard is separated from the power adapter connector, a clamping motor is started to drive two mutually meshed clamping gears to rotate so that the internal threaded sleeve synchronously rotates, at the moment, the internal threaded sleeve moves along the axis of the internal threaded sleeve to shrink into the lifting block through threaded transmission between the internal threaded sleeve and the clamping screw, so that the clamping screw drives the clamping head and the two movable clamping blocks for clamping the power adapter connector to move towards the lifting block, and the clamped power adapter connector moves into the inner side of the installation protection shell;

(C) Then the lifting motor starts to drive the two meshed lifting gears to rotate so as to enable the lifting screw to rotate and drive the lifting sliding block to move up and down along the axis of the limiting rod, so that the height positions of the lifting block and the power adapter connector clamped by the two movable clamping blocks are adjusted, the power adapter connector is moved to the position of a storage bin where the power adapter connector is stored, then the corresponding switching motor of the storage bin starts and drives the two mutually meshed switching gears to rotate so as to enable the switching screw to rotate, at the moment, the switching screw can drive the switching internal thread ring to move along the axis of the switching screw through thread transmission between the switching internal thread ring, and when the switching internal thread ring moves, the switching guide rod is driven to synchronously move so that the power adapter connector storage seat moves out of the middle of the storage bin and reaches the position below the clamped power adapter connector;

(D) Then the pressurizing electromagnet is connected with current and magnetically adsorbs the pressurizing permanent magnet, so that the pressurizing permanent magnet drives the pressurizing connecting rod and the pressurizing sheet to move downwards and compress the extruding spring, the downwards moved pressurizing sheet clamps the power adapter connector attached to the power adapter connector placing seat, after the power adapter connector is clamped by the pressurizing sheet and the power adapter connector placing seat, the clamping motor is started again to enable the clamping screw to shrink towards the inner side of the lifting block again, and therefore the two movable clamping blocks are separated from the clamped power adapter connector, after the power adapter connector and the two movable clamping blocks are separated, the switching motor is started reversely, so that the switching guide rod is driven by the switching internal thread ring to move reversely and reset, and the power adapter connector placing seat drives the power adapter connector to move towards the inside of the storage bin;

(E) When the removed power adapter joint moves to the inner side of the storage bin, the lifting motor is started again to drive the lifting sliding block and the lifting block to move along the axis of the lifting screw rod, so that the lifting block and the clamping head move to the position of the other storage bin, then the corresponding switching motor of the storage bin is started and the switching screw rod is enabled to rotate, then the switching screw rod enables the switching guide rod and the power adapter joint placing seat to move out from the inner side of the storage bin through the threaded transmission between the switching internal threaded rings, and the storage bin on the surface of the power adapter joint placing seat is also moved out;

(F) After the new storage bin is moved out of the storage bin, the clamping motor is reversely started to drive the clamping head to approach the power adapter connector, the two movable clamping blocks clamp the power adapter connector, the power adapter connector placing seat and the switching guide rod reset under the driving of the switching screw rod and the switching internal thread ring after the new power adapter connector is clamped, then the lifting slide block and the lifting block are positioned in the middle of the interface between the power adapter connector and the positioning outer frame, then the clamping motor is continuously started to drive the power adapter connector to approach the positioning outer frame until the power adapter connector is plugged into the inner side of the positioning outer frame again, and finally the two positioning electromagnets are disconnected with current, and simultaneously, the two positioning plug boards are driven to approach the positioning outer frame by elastic restoration of the two positioning springs, so that the end part of the positioning outer frame is clamped into the inner side of the positioning plug groove on the end part surface of the power adapter connector to fix the power adapter connector.

Preferably, the surface of the conductive sheet is provided with a metal conductive sheet, and the shape and the mutual position of the metal conductive sheet are determined according to the internal shape of the joint interface of the corresponding power adapter and the position of the joint interface.

Preferably, the bottom surface of the end part of the movable clamping block, which is close to the end part heat dissipation shell, is an inclined surface, and the surface of the inclined surface is smooth.

Compared with the prior art, the application method of the invention has the beneficial effects that:

the invention can rapidly switch the power adapter connector internally provided with different types of conducting strips, so that the computer power supply can be matched with power adapters of different types, the stability of the power adapter connector is ensured after the switching, the shaking of the power adapter connector is avoided, and the power adapter connector is convenient for users to work by using other power adapters under the conditions of damage, forgetting or air pressure emergency of the original power adapter.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a positioning mechanism according to the present invention;

FIG. 3 is a schematic view of the power adapter joint clamping mechanism of the present invention;

FIG. 4 is a schematic view of the structure of the cover plate of the present invention;

FIG. 5 is a schematic view of the chuck assembly according to the present invention;

FIG. 6 is a schematic view of a part of the structure of the lifting block of the present invention;

FIG. 7 is a schematic diagram of a power adapter connector switching mechanism according to the present invention;

fig. 8 is a schematic structural view of the switching screw of the present invention.

In the figure: 1. the upper shell is protected; 2. a bottom plate; 3. a data line; 4. a plug; 5. a positioning mechanism; 501. a cover plate; 502. positioning the outer frame; 503. positioning the plugboard; 504. positioning a connecting block; 505. a positioning rod; 506. a lock nut; 507. positioning an electromagnet; 508. positioning a permanent magnet; 509. covering the chute; 510. resetting the sliding block; 511. assembling the plug block; 512. a return spring; 513. a guide rod; 6. the power adapter joint clamping mechanism; 601. a power adapter connector; 602. installing a protective shell; 603. a lifting motor; 604. lifting screw rods; 605. a lifting slide block; 606. a lifting block; 607. a storage bin; 608. an internally threaded sleeve; 609. clamping a screw; 610. clamping a motor; 611. a restraining bar; 612. an end limiting plate; 613. mounting a chuck; 614. a movable clamping block; 615. clamping the connecting rod; 616. a limiting ring; 617. clamping a spring; 618. a current-carrying conductor; 619. a conductive sheet; 7. a power adapter connector switching mechanism; 701. a power adapter connector placement seat; 702. switching the guide rod; 703. pressurizing an electromagnet; 704. a pressurizing permanent magnet; 705. a compression link; 706. extruding a spring; 707. pressing the tablets; 708. switching the screw; 709. switching the internal thread ring; 710. switching the motor; 8. connecting wires; 9. a guide chute; 10. positioning the inserting groove; 11. an end heat dissipating housing.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The lift motor 603 (model ncv-400-60C), the clamping motor 610 (model GM12A15 BY) and the switch motor 710 (model 5IK60 RGN-CF) are all available from market purchase or private customization.

Referring to fig. 1 to 8, an embodiment of the present invention provides: the utility model provides a computer power supply with multiple suitability, including bottom plate 2, bottom plate 2 both ends surface all is provided with tip heat dissipation casing 11, the top of two tip heat dissipation casings 11 is provided with protection epitheca 1, the outside of one of them tip heat dissipation casing 11 is provided with data line 3, the tip that data line 3 kept away from tip heat dissipation casing 11 is provided with bayonet joint 4, the other end of data line 3 passes from the centre of tip heat dissipation casing 11, the outside of another tip heat dissipation casing 11 is provided with positioning mechanism 5, the inboard of tip heat dissipation casing 11 that the outside is provided with positioning mechanism 5 is provided with power adapter joint clamping mechanism 6;

The positioning mechanism 5 comprises a positioning outer frame 502, the positioning outer frame 502 is attached to the outer side of the end part heat dissipation shell 11, the two ends of the positioning outer frame 502 are connected with the end part heat dissipation shell 11 through screws, the upper surface and the lower surface of the positioning outer frame 502 are respectively provided with a penetrating connecting groove, the upper side and the lower side of the positioning outer frame 502 are respectively provided with a cover plate 501, two positioning connecting blocks 504 are respectively arranged on the two sides of the cover plates 501, the middle of each positioning connecting block 504 is penetrated by a positioning rod 505, one end of each positioning rod 505 is fixedly connected with the outer surface of the end part heat dissipation shell 11, the outer side of the other end of each positioning rod 505 is movably provided with a locking nut 506, the surface of each cover plate 501 attached to the end part heat dissipation shell 11 is provided with a covering sliding groove 509, the inner side of the end part of each covering sliding groove 509 far from the positioning outer frame 502 is provided with a positioning electromagnet 507, the inner side of each covering sliding groove 509 is movably provided with a positioning plugboard 503, the end part of each positioning plugboard 503 far from the covering sliding groove 509 penetrates through the middle of the connecting grooves, the inner side of each positioning plugboard 503 is provided with a positioning permanent magnet 508, the end part 503 is positioned on the inner side of each covering sliding groove 509, the end part of each positioning plugboard 503 is positioned on the inner side of the covering sliding groove 509, the end part of each positioning plugboard is penetrated by a reset spring 512, the middle of the end part 11 is jointed with a reset spring 512, the reset rod is slidably clamped in the end part of the end part 11, and the reset rod is penetrated by the reset rod 512, and the middle of the reset rod is arranged in the middle of the end 11, and is penetrated by the reset rod and is arranged;

The power adapter joint clamping mechanism 6 comprises a mounting protection shell 602, one end of the mounting protection shell 602 is attached to the inner wall of an end part heat dissipation shell 11, the other end of the mounting protection shell 602 is provided with a guide chute 9, a lifting block 606 is movably arranged in the mounting protection shell 602, the end part of the lifting block 606, which is close to the guide chute 9, is provided with a lifting slide block 605, the middle of the lifting slide block 605 is penetrated and provided with a lifting screw rod 604, the middle of the lifting screw rod 604 and the guide chute 9 is provided with a limiting rod, the limiting rod penetrates through the middle of the lifting slide block 605 and is in sliding connection with the lifting slide block 605, one side of the bottom end of the lifting screw rod 604 is provided with a lifting motor 603, the end part of the lifting motor 603 and the outer surface of the bottom end of the lifting screw rod 604 are respectively provided with lifting gears, and the two lifting gears are meshed with each other;

an inner thread sleeve 608 is arranged in the other end of the lifting block 606, a clamping motor 610 is arranged below the side of the inner thread sleeve 608, clamping gears are arranged at the end part of the clamping motor 610 and the outer surface of the inner thread sleeve 608, the two clamping gears are meshed with each other, an end limiting plate 612 is arranged at the outer side of one end of the inner thread sleeve 608, the end limiting plate 612 is inlaid at the end part of a limiting ring 616 and is provided with a ball bearing in the middle of the end part of the inner thread sleeve 608, a clamping screw 609 penetrates through the middle of the inner thread sleeve 608, one end of the clamping screw 609 is spliced in the lifting block 606, and the other end of the clamping screw 609 is positioned outside the lifting block 606 and is provided with a clamping head 613;

The upper part and the lower part of the clamping head 613 are respectively provided with a movable clamping block 614, the surface of the movable clamping block 614 facing the clamping head 613 is provided with a clamping connecting rod 615, one end of the clamping connecting rod 615 is inserted into the clamping head 613, the outer side of the end part of the clamping connecting rod is sleeved with a clamping spring 617, the end part of the clamping spring 617, which is close to the movable clamping block 614, is provided with a limiting ring 616, the outer side of the clamping connecting rod 615 is sleeved with a limiting ring 616, the limiting ring 616 is clamped on the surface of the clamping head 613, the limiting ring 616 is connected with the clamping head 613 through a screw, the middle of the other end of the clamping head 613 is clamped with an energizing conductor 618, the end part of the energizing conductor 618, which is clamped inside the clamping head 613, is provided with a connecting wire 8, the connecting wire 8 penetrates through the lifting block 606 and passes through the middle of the guide chute 9, the other end of the energizing conductor 618 is provided with a conducting plate 619, and the outer side of the conducting plate 619 is provided with a power adapter joint 601;

the other end of the power adapter connector 601 penetrates through the end heat dissipation shell 11 and is spliced in the middle of the positioning outer frame 502, the end face of the power adapter connector 601 penetrating through the middle of the end heat dissipation shell 11 is kept flush with the outer surface of the positioning outer frame 502, positioning splicing grooves 10 are formed in the upper surface and the lower surface of the outer wall of the middle of the positioning outer frame 502, the end of the positioning splicing plate 503 penetrating through the middle of the connecting groove is clamped inside the positioning splicing grooves 10, and a storage bin 607 is arranged on the inner wall of the installation protection shell 602;

The power adapter connector switching mechanism 7 is movably arranged on the inner side of the storage bin 607, the power adapter connector switching mechanism 7 comprises a power adapter connector placing seat 701, a switching guide rod 702 is arranged on the bottom surface of the power adapter connector placing seat 701, the switching guide rod 702 is clamped in the inner wall of the installation protection shell 602 and is in sliding connection with the installation protection shell 602, a switching internal thread ring 709 is inlaid on one end face of the switching guide rod 702, a switching screw 708 is arranged in the middle of the switching internal thread ring 709 in a penetrating manner, one end of the switching screw 708 is spliced on the inner wall of the installation protection shell 602, a switching motor 710 is arranged below the end of the switching screw 708, switching gears are arranged on the outer surfaces of the end of the switching motor 710 and the end of the switching screw 708, which are close to the switching motor 710, the two switching gears keep engaged with each other, the top of power adapter connects and places the seat 701 is provided with pressurization piece 707, the one end bottom surface of pressurization piece 707 is provided with pressurization connecting rod 705, peg graft in the inside of power adapter connects and places the seat 701 and the bottom is provided with pressurization permanent magnet 704, the below of pressurization permanent magnet 704 is provided with pressurization electro-magnet 703, be provided with extrusion spring 706 in the middle of the upper surface of pressurization piece 707 and power adapter connects and places the seat 701, extrusion spring 706 overlaps in the outside of pressurization connecting rod 705, the surface of bottom plate 2 is provided with the deposit battery, deposit battery and elevator motor 603, clamping motor 610, switch motor 710, positioning electromagnet 507 and pressurization electro-magnet 703 all pass through the wire connection.

Further, the outer surface of the positioning rod 505 is provided with a thread which is screwed in the same direction as the inner surface of the lock nut 506 which is sleeved outside thereof, and the lock nut 506 is sleeved outside the positioning rod 505 by screwing.

Further, a U-shaped connection port is provided in the middle of the end portion of the reset slider 510 inserted into the outer wall of the end portion heat dissipation housing 11, and the width of the U-shaped connection port is equal to or larger than the diameter of the guide rod 513.

Further, the inner surface of the lifting slide block 605 penetrated by the lifting screw 604 is provided with threads which are in the same rotation direction as the outer surface of the lifting slide block 605, and the lifting slide block 605 and the lifting screw 604, the internal thread sleeve 608 and the clamping screw 609, and the switching internal thread ring 709 and the switching screw 708 are in threaded transmission.

Further, a limiting rod 611 is arranged below the clamping screw 609, one end of the limiting rod 611 is fixedly connected with the clamping head 613, and the other end of the limiting rod 611 is inserted into the lifting block 606 and is in sliding connection with the lifting block 606.

Further, an anti-falling sliding groove is formed in the surface of the limiting rod 611, an anti-falling limiting piece is arranged on the inner side of the end portion, close to the lifting block 606, of the anti-falling sliding groove, and the anti-falling limiting piece is connected with the lifting block 606 through a pin.

Further, an assembling clamping groove is formed in the surface, attached to the positioning permanent magnet 508, of the positioning plug board 503, and an assembling plug block 511 is arranged at the portion, in contact with the positioning permanent magnet 508, of the top end of the positioning plug board 503, and is inserted into the assembling clamping groove.

A method for using a computer power supply with multiple adaptation performance comprises the following steps:

(A) Firstly, starting a storage battery arranged on the surface of a bottom plate 2, so that a lifting motor 603, a clamping motor 610, a switching motor 710, a positioning electromagnet 507 and a pressurizing electromagnet 703 obtain power supply of the storage battery, at the moment, the two positioning electromagnets 507 are connected with current and generate magnetism to magnetically adsorb a corresponding positioning permanent magnet 508, the adsorbed positioning permanent magnet 508 can drive a positioning plugboard 503 to move towards the inner side of a covering chute 509, and meanwhile, a reset slider 510 compresses a reset spring 512 along with the movement of the positioning plugboard 503 until the end part of the positioning plugboard 503 is separated from the middle of a positioning plugboard 10 on the end part surface of a power adapter connector 601;

(B) After the positioning plugboard 503 is separated from the power adapter connector 601, a clamping motor 610 is started to drive two mutually meshed clamping gears to rotate so that the internal thread sleeve 608 synchronously rotates, at the moment, the internal thread sleeve 608 moves along the axis of the internal thread sleeve 608 to shrink into the lifting block 606 through the thread transmission between the internal thread sleeve 608 and the clamping screw 609, so that the clamping screw 609 drives a clamping head 613 and two movable clamping blocks 614 for clamping the power adapter connector 601 to move towards the lifting block 606, and the clamped power adapter connector 601 moves into the inner side of the installation protection shell 602;

(C) Then the lifting motor 603 starts to drive the two engaged lifting gears to rotate so as to drive the lifting screw 604 to rotate and drive the lifting slide block 605 to move up and down along the axis of the limiting rod, so that the lifting block 606 and the power adapter connector 601 clamped by the two movable clamping blocks 614 are adjusted to move the power adapter connector 601 to the position of the storage bin 607 where the previous power adapter connector 601 is stored, then the corresponding switching motor 710 of the storage bin 607 starts and drives the two engaged switching gears to rotate so as to drive the switching screw 708 to rotate, at the moment, the switching screw 708 can drive the switching internal thread ring 709 to move along the axis of the switching screw 708 through the thread transmission between the switching internal thread ring 709, and when the switching internal thread ring 709 moves, the switching guide rod 702 is driven to synchronously move so as to enable the power adapter connector placing seat 701 to move out of the middle of the storage bin 607 and reach the position below the clamped power adapter connector 601;

(D) Then the pressurizing electromagnet 703 is powered on and magnetically adsorbs the pressurizing permanent magnet 704, so that the pressurizing permanent magnet 704 drives the pressurizing connecting rod 705 and the pressurizing sheet 707 to move downwards and compress the compressing spring 706, the pressurizing sheet 707 after moving downwards clamps the power adapter connector 601 attached to the power adapter connector placing seat 701, after the power adapter connector 601 is clamped by the pressurizing sheet 707 and the power adapter connector placing seat 701, the clamping motor 610 is started again, so that the clamping screw 609 is contracted towards the inner side of the lifting block 606 again, and the two movable clamping blocks 614 are separated from the clamped power adapter connector 601, after the power adapter connector 601 and the two movable clamping blocks 614 are separated, the switching motor 710 is started reversely, so that the switching guide rod 702 is driven by the switching internal thread ring 709 to move reversely and reset, and the power adapter connector placing seat 701 drives the power adapter connector 601 to move towards the inside of the storage bin 607;

(E) When the removed power adapter connector 601 moves to the inner side of the storage bin 607, the lifting motor 603 is started again to drive the lifting slide block 605 and the lifting block 606 to move along the axis of the lifting screw 604, so that the lifting block 606 and the clamping head 613 move to the position of the other storage bin 607, then the corresponding switching motor 710 of the storage bin 607 is started and the switching screw 708 rotates, then the switching screw 708 enables the switching guide rod 702 and the power adapter connector placing seat 701 to move out of the inner side of the storage bin 607 through the threaded transmission between the switching internal threaded rings 709, and the storage bin 607 on the surface of the power adapter connector placing seat 701 is also moved out;

(F) After the new storage bin 607 is moved out of the storage bin 607, the clamping motor 610 is reversely started to drive the clamping head 613 to approach the power adapter connector 601, the two movable clamping blocks 614 clamp the power adapter connector 601, after the new power adapter connector 601 is clamped, the power adapter connector placement seat 701 and the switching guide rod 702 are driven by the switching screw 708 and the switching internal thread ring 709 to reset, then the lifting slide block 605 and the lifting block 606 are positioned at the interface between the power adapter connector 601 and the positioning outer frame 502, then the clamping motor 610 is continuously started to drive the power adapter connector 601 to approach the positioning outer frame 502 until the power adapter connector 601 is spliced on the inner side of the positioning outer frame 502 again, finally, the two positioning electromagnets 507 are disconnected from current, and the two positioning inserting plates 503 are driven to approach the positioning outer frame 502 by elastic recovery of the two reset springs 512, and the end parts of the positioning outer frame 502 are clamped on the inner side of the positioning inserting grooves 10 on the end surfaces of the power adapter connector 601 to fix the power adapter connector 601.

Further, the surface of the conductive sheet 619 is provided with metal conductive sheets, and the shape and the mutual position of the metal conductive sheets are determined according to the internal shape of the joint interface of the corresponding power adapter and the position of the joint interface.

Further, the bottom surface of the end portion of the movable clamping block 614, which is close to the end portion heat dissipation shell 11, is an inclined slope, and the surface of the inclined slope is smooth.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A computer power supply with multiple adaptation properties, comprising a base plate (2), characterized in that: the two end surfaces of the bottom plate (2) are respectively provided with an end heat dissipation shell (11), a protective upper shell (1) is arranged above the two end heat dissipation shells (11), one of the end heat dissipation shells (11) is provided with a data wire (3) on the outer side, the end, far away from the end heat dissipation shell (11), of the data wire (3) is provided with an inserting head (4), the other end of the data wire (3) penetrates through the middle of the end heat dissipation shell (11), the outer side of the other end heat dissipation shell (11) is provided with a positioning mechanism (5), and the inner side of the end heat dissipation shell (11) provided with the positioning mechanism (5) on the outer side is provided with a power adapter connector clamping mechanism (6);

The positioning mechanism (5) comprises a positioning outer frame (502), the positioning outer frame (502) is attached to the outer side of the end part heat dissipation shell (11) and two ends of the positioning outer frame are connected with the end part heat dissipation shell (11) through screws, connecting grooves penetrating through the upper surface and the lower surface of the positioning outer frame (502) are formed in the inner side and the outer side of the end part heat dissipation shell (11), a cover plate (507) is arranged on the upper side and the lower side of the positioning outer frame (502), two positioning connecting blocks (504) are arranged on two sides of the cover plate (501), a positioning rod (505) is penetrated in the middle of the positioning connecting blocks (504), one end of the positioning rod (505) is fixedly connected with the outer surface of the end part heat dissipation shell (11), a locking nut (506) is movably arranged on the outer side of the other end of the positioning rod (505), a cover chute (509) is arranged on the surface of the cover plate (501) attached to the end part heat dissipation shell (11), a positioning electromagnet (507) is arranged on the inner side of the end part of the cover chute (509) far away from the positioning outer frame (502), a positioning plug board (503) is movably arranged on the inner side of the cover chute (509), a positioning plug board (503), one end part of the positioning plug board (508) far away from the connecting plate (503) is arranged on the end part of the middle of the connecting plate (503), the positioning plugboard (503) is positioned at the inner side of the covering chute (509) and is attached to the end surface of the end part heat dissipation shell (11), a reset slide block (510) is arranged on the end part surface of the end part heat dissipation shell (11) in a sliding clamping manner, a reset spring (512) is arranged between the reset slide block (510) and the end part heat dissipation shell (11), a guide rod (513) is arranged in the middle of the reset spring (512) in a penetrating manner, and one end of the guide rod (513) penetrates through the middle of the reset slide block (510);

The power adapter joint clamping mechanism (6) comprises a mounting protection shell (602), one end of the mounting protection shell (602) is attached to the inner wall of the end part radiating shell (11), the other end of the mounting protection shell (602) is provided with a guide sliding groove (9), a lifting block (606) is movably arranged in the mounting protection shell (602), the end part, close to the guide sliding groove (9), of the lifting block (606) is provided with a lifting sliding block (605), a lifting screw (604) penetrates through the middle of the lifting sliding block (605), a limiting rod is arranged between the lifting screw (604) and the guide sliding groove (9), the limiting rod penetrates through the middle of the lifting sliding block (605) and is in sliding connection with the lifting sliding block (605), one side of the bottom end of the lifting screw (604) is provided with a lifting motor (603), the end part of the lifting motor (603) and the outer surface of the bottom end of the lifting screw (604) are respectively provided with lifting gears, and the two lifting gears are meshed with each other;

an inner threaded sleeve (608) is arranged inside the other end of the lifting block (606), a clamping motor (610) is arranged below the inner threaded sleeve (608), clamping gears are arranged at the end part of the clamping motor (610) and the outer surface of the inner threaded sleeve (608) and keep engaged with each other, an end limiting plate (612) is arranged outside one end of the inner threaded sleeve (608), the end limiting plate (612) is inlaid at the end part of a limiting ring (616) and is provided with a ball bearing in the middle of the end part of the inner threaded sleeve (608), a clamping screw (609) is arranged in the middle of the inner threaded sleeve (608) in a penetrating mode, one end of the clamping screw (609) is spliced inside the lifting block (606), and the other end of the clamping screw (609) is positioned outside the lifting block (606) and is provided with a clamping head (613);

The clamping head (613) is provided with movable clamping blocks (614) at the upper and lower sides, clamping connecting rods (615) are arranged on the surfaces of the movable clamping blocks (614) facing the clamping heads (613), one ends of the clamping connecting rods (615) are inserted into the clamping heads (613) and sleeved with clamping springs (617) at the outer sides of the ends, close to the movable clamping blocks (614), of the clamping springs (617) are provided with limiting rings (616), the limiting rings (616) are sleeved on the surfaces of the clamping heads (613) in a clamping mode, the limiting rings (616) are connected with the clamping heads (613) through screws, energizing conductors (618) are clamped in the middle of the other ends of the clamping heads (613), connecting wires (8) penetrate through lifting blocks (606) and penetrate through the middle 619 of guide sliding grooves (9), the other ends of the energizing conductors (618) are provided with conducting pieces (619), and the outer sides of the conducting pieces (601) are provided with power adapters (619).

The other end of the power adapter connector (601) penetrates through the end radiating shell (11) and is spliced in the middle of the positioning outer frame (502), the end face of the power adapter connector (601) penetrating through the middle of the end radiating shell (11) is kept flush with the outer surface of the positioning outer frame (502), positioning splicing grooves (10) are formed in the upper surface and the lower surface of the outer wall of the middle of the positioning outer frame (502), the end of the positioning splicing plate (503) penetrating through the middle of the connecting groove is clamped inside the positioning splicing grooves (10), and a storage bin (607) is arranged on the inner wall of the installation protecting shell (602);

The inside activity of accomodate storehouse (607) is provided with power adapter joint switching mechanism (7), power adapter joint switching mechanism (7) are including power adapter joint placement seat (701), the bottom surface that power adapter joint placement seat (701) was provided with switching guide arm (702), switching guide arm (702) joint is in the inner wall of installation protection casing (602) with installation protection casing (602) sliding connection, switching guide arm (702) one end terminal surface inlay is provided with switching internal thread ring (709), the centre of switching internal thread ring (709) runs through and is provided with switching screw rod (708), switching screw rod (708) one end grafting is provided with switching motor (710) in the inner wall of installation protection casing (602) and tip below, switching motor (710) tip and switching screw rod (708) are close to switching motor (710) tip surface all are provided with switching gear, two switching gear keep meshing each other, the top that power adapter joint placed seat (701) is provided with pressurization piece (707), one end terminal surface (707) is provided with pressurization piece (704), pressurization piece (704) are provided with the bottom surface (704), pressurization piece (704) is provided with pressurization permanent magnet (703) and pressurization piece (704) are placed under pressurization piece (704) the inside pressurization piece (703), the pressurizing plate (707) and the power adapter joint are provided with a squeezing spring (706) in the middle of the upper surface of the placing seat (701), the squeezing spring (706) is sleeved on the outer side of the pressurizing connecting rod (705), the surface of the bottom plate (2) is provided with a storage battery, and the storage battery is connected with the lifting motor (603), the clamping motor (610), the switching motor (710), the positioning electromagnet (507) and the pressurizing electromagnet (703) through wires.

2. A computer power supply having multiple adaptation properties according to claim 1, wherein: the outer surface of the positioning rod (505) is provided with threads which are in the same rotation direction as the inner surface of a locking nut (506) sleeved on the outer side of the positioning rod, and the locking nut (506) is sleeved on the outer side of the positioning rod (505) in a threaded rotation mode.

3. A computer power supply having multiple adaptation properties according to claim 1, wherein: the reset slide block (510) is inserted in the middle of the end part of the outer wall of the end part heat dissipation shell (11), and a U-shaped connecting port is arranged in the middle of the end part of the outer wall of the end part heat dissipation shell, and the width of the U-shaped connecting port is larger than or equal to the diameter of the guide rod (513).

4. A computer power supply having multiple adaptation properties according to claim 1, wherein: the inner side surface of the lifting slide block (605) penetrated by the lifting screw (604) is provided with threads which are in the same rotation direction as the outer surface of the lifting slide block (605), and the lifting slide block (605) and the lifting screw (604), the internal thread sleeve (608) and the clamping screw (609), the switching internal thread ring (709) and the switching screw (708) are in threaded transmission.

5. A computer power supply having multiple adaptation properties according to claim 1, wherein: the clamping screw (609) is provided with a limiting rod (611) below, one end of the limiting rod (611) is fixedly connected with the clamping head (613), and the other end of the limiting rod (611) is inserted into the lifting block (606) and is in sliding connection with the lifting block (606).

6. A computer power supply having multiple adaptation properties according to claim 5, wherein: the surface of the limiting rod (611) is provided with an anti-falling sliding groove, the inner side of the end part of the anti-falling sliding groove, which is close to the lifting block (606), is provided with an anti-falling limiting piece, and the anti-falling limiting piece is connected with the lifting block (606) through a pin.

7. A computer power supply having multiple adaptation properties according to claim 2, characterized in that: the surface that location permanent magnet (508) and location plugboard (503) laminate is provided with the equipment draw-in groove, the part that location plugboard (503) top and location permanent magnet (508) contact is provided with equipment plug-in piece (511), equipment plug-in piece is pegged graft in the equipment draw-in groove inboard.

8. A method of using a computer power supply having multiple adaptive capabilities according to any one of claims 1-7, wherein: the using method comprises the following steps:

(A) Firstly, starting a storage battery arranged on the surface of a bottom plate (2), so that a lifting motor (603), a clamping motor (610), a switching motor (710), positioning electromagnets (507) and a pressurizing electromagnet (703) are supplied with power of the storage battery, at the moment, the two positioning electromagnets (507) are connected with current and generate magnetism to magnetically adsorb corresponding positioning permanent magnets (508), the adsorbed positioning permanent magnets (508) can drive a positioning plugboard (503) to move towards the inner side of a covering chute (509), and meanwhile, a reset slider (510) compresses a reset spring (512) along with the movement of the positioning plugboard (503) until the end part of the positioning plugboard (503) is separated from the middle of a positioning pluggroove (10) on the end part surface of a power adapter connector (601);

(B) After the positioning plugboard (503) is separated from the power adapter connector (601), a clamping motor (610) is started to drive two mutually meshed clamping gears to rotate so that the internal threaded sleeve (608) synchronously rotates, at the moment, the internal threaded sleeve (608) moves along the axis of the internal threaded sleeve (608) to shrink into the lifting block (606) through the threaded transmission between the internal threaded sleeve (608), so that the clamping screw (609) drives a clamping head (613) and two movable clamping blocks (614) for clamping the power adapter connector (601) to move towards the lifting block (606), and the clamped power adapter connector (601) moves into the inner side of the installation protection shell (602);

(C) Then the lifting motor (603) starts to drive the two meshed lifting gears to rotate so as to enable the lifting screw (604) to rotate and drive the lifting sliding block (605) to move up and down along the axis of the limiting rod, so that the height position of the lifting block (606) and the power adapter connector (601) clamped by the two movable clamping blocks (614) is adjusted, the power adapter connector (601) is moved to the position of a storage bin (607) where the previous power adapter connector (601) is stored, then the corresponding switching motor (710) of the storage bin (607) starts and enables the switching screw (708) to rotate by driving the two meshed switching gears to rotate, at the moment, the switching screw (708) enables the switching internal thread ring (709) to move along the axis of the switching screw (708) through the thread transmission between the switching internal thread ring (709), and when the switching internal thread ring (709) moves, the switching guide rod (702) is driven to move synchronously so that the power adapter connector placing seat (607) is moved out of the storage bin (607) and reaches the position below the clamped power adapter connector (601);

(D) Then the pressurizing electromagnet (703) is connected with current and magnetically adsorbs the pressurizing permanent magnet (704), so that the pressurizing permanent magnet (704) drives the pressurizing connecting rod (705) and the pressurizing sheet (707) to move downwards and compress the compressing spring (706), the downward moved pressurizing sheet (707) clamps the power adapter connector (601) attached to the power adapter connector placing seat (701), after the power adapter connector (601) is clamped by the pressurizing sheet (707) and the power adapter connector placing seat (701), the clamping motor (610) is started again, the clamping screw (609) is contracted towards the inner side of the lifting block (606) again, and therefore the two movable clamping blocks (614) are separated from the clamped power adapter connector (601), after the power adapter connector (601) is separated from the two movable clamping blocks (614), the switching motor (710) is started reversely, so that the switching guide rod (702) is driven by the switching internal thread ring (709) to move reversely and reset, and the power adapter connector placing seat (701) drives the power adapter connector (601) to move inwards;

(E) When the removed power adapter connector (601) moves to the inner side of the storage bin (607), the lifting motor (603) is started to drive the lifting sliding block (605) and the lifting block (606) to move along the axis of the lifting screw (604) again, so that the lifting block (606) and the clamping head (613) move to the position of the other storage bin (607), then the corresponding switching motor (710) of the storage bin (607) is started to rotate the switching screw (708), and then the switching screw (708) enables the switching guide rod (702) and the power adapter connector placing seat (701) to move out of the inner side of the storage bin (607) through the threaded transmission between the switching internal threaded rings (709) and enables the storage bin (607) on the surface of the power adapter connector placing seat (701) to be also moved out;

(F) After the new storage bin (607) is moved out of the storage bin (607), the clamping motor (610) is reversely started to drive the clamping head (613) to approach the power adapter connector (601), the two movable clamping blocks (614) clamp the power adapter connector (601), after the new power adapter connector (601) is clamped, the power adapter connector placing seat (701) and the switching guide rod (702) are driven by the switching screw rod (708) and the switching internal thread ring (709) to reset, then the lifting slide block (605) and the lifting block (606) are positioned at the interface between the power adapter connector (601) and the positioning outer frame (502), then the clamping motor (610) is continuously started to drive the power adapter connector (601) to approach the positioning outer frame (502), until the power adapter connector (601) is plugged inside the positioning outer frame (502) again, and finally, the two positioning electromagnets (507) are disconnected, and the two reset springs (512) elastically reset to drive the two positioning plug boards (503) to approach the positioning outer frame (502), and the end part of the positioning outer frame (507) is clamped at the surface of the power adapter connector (502) to fix the surface of the power adapter connector (601).

9. The method of using a computer power supply with multiple adaptation performance according to claim 8, wherein: the surface of the conducting strip (619) is provided with a metal conducting strip, and the shape and the mutual position of the metal conducting strip are determined according to the internal shape of the joint interface of the corresponding power adapter and the position of the joint interface.

10. The method of using a computer power supply with multiple adaptation performance according to claim 8, wherein: the bottom surface of the end part of the movable clamping block (614) close to the end part radiating shell (11) is an inclined surface, and the surface of the inclined surface is smooth.

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